Data usage method, system, and program thereof employing blockchain network (bcn)

ABSTRACT

The purpose of the present invention is to provide a new data utilization system in which, while an individual independently uses and utilizes one’s own personal data, security and anonymity of the data can be effected. An information processing device used by an individual comprises^ a function of transmitting, over a network, data relating to an address on a blockchain network used by the individual to a provider-side information processing device comprising a storage device that is a provision source of data associated with information about the individual! a function of referring to access data (ACT) that includes the data relating to the blockchain network address and data for identifying the provision source of the data and that is issued by the provision-side information processing device for the blockchain network address! and a function of, on the basis of the access data (ACT), acquiring the data associated with the information about the individual from the provider-side storage device and storing said data at least in a storage device or a memory of said individual.

The application is a continuation of U.S. Pat. Application No.16/473.671 filed on Sep. 16, 2019 which is a U.S. National PhaseApplication under 35 U.S.C. 371 of International Application No.PCT/JP2017/047345 filed on Dec. 28, 2017. This application is based onand claims the benefit of priority from Japanese Patent Application No.2016-256339 filed on Dec. 28, 2016. The entire disclosures of all of theabove applications are incorporated herein by reference.

TECHNICAL FIELD

The present invention relates to a data usage method, a system, and aprogram thereof utilizing a BCN (blockchain network).

BACKGROUND ART

The developments of information processing and communication haveallowed information concerning an individual to be electronicallyaccumulated as data every day through periodical or continuousmonitoring of daily activities of the user.

The information is a variety of data such as data concerning health ofthe user and treatment in a hospital, individual medical data such asdrug dosage, history information of daily shopping, and daily accessinformation for retrieval of favorite information.

These kinds of information are accumulated as data together with timeinformation and can be treated as so-called individual history data.

Various data generated according to such a variety of activities and theperiodical or continuous monitoring are stored, depending on servicesrelated to the activities and the like, in storages used by processingsystems that provide the respective services. For example, shoppinginformation is stored while being distributed according to forms ofpurchases, that is, respective services such as shopping by creditcards, shopping by cash, and shopping by a debit card.

That is, such history data is managed by only providers that provide theservices. Not that individual users of the services allow otherinstitutions and providers to use history data in the past in differentforms.

Therefore, the history data for each of the services are likely to beextremely biased content. Further, in a today’s highly developedinformation system, history data mutually related among services isdivided by systems that provide the respective services and is preventedfrom being utilized as data having mutual relationship.

Moreover, activity content of an individual changes at every momentdepending on the individual’s environment and often shifts to a serviceof a different provider. Therefore, if data serving as extremelyimportant assets of the individual is divided by the different service,sufficient utilization of the data is hindered for the individual orcompanies and institution groups that are about to utilize the dataanew.

On the other hand, individual data has to be extremely carefully treatedin order to protect privacy of an individual. When information is simplyspread, information concerning the individual is used for wrong purposesor damage to a partner is caused because of impersonation or the like.Serious damage could also occur if the information is falsified.

With the development of a machine learning technology called artificialintelligence (AI) technology as well in these days, data of anindividual is processed to analyze taste of the individual andprocessing for automatically responding to an inquiry is widelyperformed. Health maintenance is most important for the quality ofindividual life. For example, there is known a system for providingmedical data of an individual to an AI, which accumulates clinical dataand the like, to propose a present disease name, possible diseases, atype of dosage, and the like.

In particular, a method of deep learning is utilized to learncharacteristics of medical and health data from a large number ofsubjects and find out characteristic diseases of the respective subjectsbased on the medical and health data of the individual subjects.

Further, for quality of life regarded as important in these day,importance of not only care of diseases in a narrow sense but alsohealth care related to life in general is increases. Data that can betreated is extremely extensive ranging from specific diseases such as amalignant tumor to mental disorders, stress, and the like, root causesof which are difficult to specify. Only with data on the currentconditions of patients, it is often difficult to specify, even with theAI (machine learning), appropriate answers to the subject.

Moreover, it is not only difficult to perform the medical treatment butalso difficult for individuals to select what kind of data is desirableto maintain quality of life adapted to characteristics of theindividuals. Collection of such data as information by individualsinvolves extreme difficulty.

Further, it is also necessary to perform an analysis taking into accountnot only present data but also data in the past. There is a demand for anew system that performs such flexibly adapted data collection.

PATENT LITERATURE 1: Japanese Patent Application Publication No.2016-218633

SUMMARY Technical Problem

The present invention has been devised in view of such problems.

Therefore, the present invention provides a data utilization system, adata utilization method, and the like with which an individual canindependently achieve utilization using individual data of theindividual and further achieve concealing of the data.

Further, the present invention does not limit an object of the presentinvention and targets of data. However, for example, medical data, whichis individual information, is also an asset of an individual. A patientis often treated in a plurality of hospitals because of many reasonssuch as a plurality of diseases and a change of residence.

Treatment data in a plurality of different medical institutions is animportant treatment asset for the patient. If the treatment data can beintegrally managed as medical data, the medical data can be variouslyutilized. Conversely, if the medical data is divided by the medicalinstitutions and the like, treatment that is originally necessary isoverlooked.

For example, information concerning how a patient has recovered or notrecovered as a result of treatment and drug dosage continuouslyperformed for a purpose of treatment of a certain disease is importantinformation for not only the patient but also many medical institutions.This makes it possible to provide a further improved treatment methodfor other patient having similar diseases.

On the other hand, medical data is individual information and needs tobe strictly managed. Further, reliability and confidentiality of genuineindividual data and reliability and confidentiality of medical activitycontents (for example, a treatment method and a dosage method) of amedical institution and an individual are also extremely important.

Therefore, the present invention provides a new method that candistribute genuine information by a genuine individual and provide a newmethod to make it possible to utilize the important information.

Further, the present invention provides a distribution infrastructurefor appropriately processing existing individual data concerning medicaltreatment, health, and the like and safely achieving utilization of theindividual data.

The present invention provides a new method and a new system that caneffectively use data in human life and is capable of contributing toimprovement of individual quality of life.

Further, the present invention provides a new method and a new systemthat can widely manage, in time series, data of individual behaviorpatterns for providing an appropriate answer corresponding to anindividual change in order to prevent not only already sufferingdiseases but also occurrence of diseases and improve individual qualityof life.

Solution to Problem

According to the present invention, there is disclosed a method foracquiring, with an information processing device used by an individual,data related to information concerning the individual and making itpossible to utilize the data, the method including: a step oftransmitting data concerning an address on a blockchain network used bythe individual to a provision source of the data related to theinformation concerning the individual via a network; a step ofregistering, on the blockchain network, data for access (ACT) includingdata for specifying a location of data provided from the provisionsource of the data; and a step of acquiring the data related to theinformation concerning the individual by referring to the data foraccess (ACT).

Consequently, it is possible to use individual information with highconfidentiality while using reliability through an address of theblockchain network.

Further, according to the present invention, the data provided from theprovision source includes at least any one of identification informationof the individual, identification information of the informationprocessing device used by the individual, and identification informationof the provision source.

Further, according to the present invention, the data provided from theprovision source includes information indicating generation time of thedata. It is possible to refer to a temporal history of the data.

Further, according to the present invention, the data provided from theprovision source is a data set including data concerning a plurality ofrespective data items generated based on a plurality of data, which arehistory data concerning the individual.

Further, according to the present invention, in the data utilizationmethod, each of the plurality of data items is configured to indicatelatest data in the data set of the history data and can be provided asimmediate latest information.

Further, according to the present invention, at least the data relatedto the information concerning the individual is hashed by a hashfunction and registered in a blockchain.

The present invention further provides a system for acquiring, with aninformation processing device used by an individual, data related toinformation concerning the individual and making it possible to utilizethe data.

The information processing device of the system according to the presentinvention includes at least a memory or a storage device connected tothe information processing device and has: a function of transmittingdata concerning an address on a blockchain network used by theindividual to an information processing device on a provider side of thedata related to the information concerning the individual via a network;a function of referring to, from the provider-side informationprocessing device, data for access (ACT) including data for specifying alocation of data provided from a provision source of the data; and afunction of acquiring, based on the data for access (ACT), the datarelated to the information concerning the individual.

Further, according to the present invention, the data provided from theprovision source includes identification information of an individualpermitted to use the data.

Further, the data provided from the provision source includes at leastidentification information of the information processing device used bythe individual, identification information of the provision source, andinformation indicating generation time of the data.

The data provided from the provision source is a data set including dataconcerning a plurality of respective data items generated based on aplurality of data, which are history data concerning the individual. Forexample, each of the plurality of data items indicates latest data inthe data set of the history data.

At least the data related to the information concerning the individualis hashed by a hash function.

Further, the present invention provides a program for acquiring datarelated to information concerning an individual, the program beingstored in an information processing device used by the individual andexecuted by a first information processing device, and a storage mediumstoring the program, the program being configured to be executed by theinformation processing device to be capable of acquiring, by referringto data for access (ACT) registered on a blockchain network based on ablockchain address provided from the information processing device, atleast data related to the information concerning the individual storedin a storage device usable by the information processing device oranother information processing device.

The data related to the information concerning the individual includesidentification information of the individual.

Further, the data related to the information concerning the individualincludes at least identification information of the informationprocessing device used by the individual, identification information ofthe provision source, and information indicating generation time of thedata.

The method disclosed in this application further includes: a step ofgenerating, based on data related to information concerning anindividual referred to by an access ticket (ACT), processed data with anauxiliary system communicable by an information processing device usedby an individual; a step of transmitting, with at least one of theauxiliary system or the information processing device used by theindividual, the processed data and inquiry data of the individual to aninformation processing device or an information processing system of athird party; and a step of acquiring or referring to, with theinformation processing device used by the individual, answer data fromthe information processing device or the information pressing system ofthe third party.

Further, in the method disclosed in this application, the auxiliarysystem acquires the data related to the information concerning theindividual by referring to data for access (ACT) on a blockchainnetwork.

The auxiliary system is operated by an expert related to the data oroperated via the information processing device used by the individualand configured to be capable of generating the processed data from thedata related to the information concerning the individual according toinquiry content of the individual. Alternatively, the auxiliary systemis implemented with an expert system or an artificial intelligencesystem related to the data and configured such that the processed datais generated by the expert system or the artificial intelligence system.

In addition, the system disclosed in this application further includesan auxiliary system communicable by an information processing deviceused by an individual. The auxiliary system is configured to be capableof generating processed data based on data related to informationconcerning the individual referred to by the access ticket (ACT) andconfigured such that the processed data and inquiry data of theindividual are transmitted to an information processing device or aninformation processing system of a third party by at least one of theauxiliary system and the information processing device used by theindividual and answer data from the information processing device or theinformation processing system of the third party is acquired or referredto by the information processing device used by the individual or theauxiliary system according to the inquiry data.

Further, the auxiliary system may be configured to be capable ofacquiring the data related to the information concerning the individualby referring to data for access (ACT) on the blockchain network andoperated by an expert related to the data or operated via theinformation processing device used by the individual and configured suchthat the processed data is generated from the data related to theinformation concerning the individual according to inquiry content ofthe individual, or the auxiliary system may be implemented with anexpert system or an artificial intelligence system related to the dataand configured such that the processed data is generated by the expertsystem or the artificial intelligence system.

In addition, this application discloses a program and a storage mediumstoring the program. The program is configured to execute an auxiliarysystem communicable by an information processing device used by anindividual such that the auxiliary system communicable by theinformation processing device used by the individual generates processeddata based on data related to information concerning the individualreferred to by data for access (ACT) to a blockchain on a blockchainnetwork, transmits the processed data to an information processingdevice or an information processing system of a third party, and iscapable of acquiring or referring to answer data from the informationprocessing device or the information processing system of the thirdparty.

The program may execute the auxiliary system to be capable of acquiringthe data related to the information concerning the individual byreferring to the data for access (ACT) on the blockchain network. Theprogram may be configured to execute the auxiliary system such that theauxiliary system is operated by an expert related to the data oroperated via the information processing device used by the individualand is capable of generating the processed data from the data related tothe information concerning the individual according to inquiry contentof the individual or may be configured to execute the auxiliary systemsuch that the processed data is generated by an expert system or anartificial intelligence system related to the data implemented in theauxiliary system.

BRIEF DESCRIPTION OF DRAWINGS

FIG. 1 is a schematic diagram showing an embodiment of an individualasset data utilization system according to the present invention.

FIG. 2 shows a conceptual diagram in the case in which individual datais updated in a storage device functioning as an information provisionresource and a storage device used by a user shown in FIG. 1 .

FIG. 3 shows an example of a data configuration of an access ticket(abbreviated as “ACT”) issued as data for access when, in the storagedevices shown in FIG. 1 , the individual data is provided to a systemother than a system that manages the individual data.

FIG. 4 shows an example of a data configuration of master data (MA) andtransaction data (TR) concerning individual information created in thestorage device shown in FIG. 2 .

FIG. 5A shows an example of a data configuration of a data section,which is a data component, of the master data (MA) and the transactiondata (TR) shown in FIG. 4 .

FIG. 5B shows an example of a data configuration of an additional datasection, which is a data component, of the master data (MA) and thetransaction data (TR) shown in FIG. 4 .

FIG. 6 is a schematic diagram showing an embodiment of the individualasset data utilization system according to the present invention inwhich received master data (MA) is provided to another person(individual, institution, group, or the like).

FIG. 7 is a conceptual diagram showing a mutual relation between a userand a storage device at a data provision source for the user and chainedaccess ticket, an issuance history of which is linked like a chain in ablockchain 50.

FIG. 8 shows a conceptual diagram for generating master data fromdifferent types of transaction data generated in time series and forcombining different types of master data (MA).

FIG. 9 is a conceptual diagram in which medical data is applied to theindividual asset data utilization system according to the presentinvention.

FIG. 10A shows an example of data body sections of transaction data (TR)and master data (MA) generated from the transaction data (TR).

FIG. 10B shows an example of a data body section of new master data (MA)generated from different types of transaction data.

FIG. 11 shows an example of a system configuration for processing datastored in a storage device 30 and delivering the data to anotherinformation processing device 60.

FIG. 12 shows an example of a system configuration for concealinginformation concerning an individual, which should be concealed, andproviding the concealed information to the information processing device60 based on the configuration shown in FIG. 11 .

DESCRIPTION

The present invention uses a blockchain, which is a core technology of a12 bitcoin and the like, which are virtual currencies. The blockchain isa distributed register for recording, as chain-like blocks, records(blocks) of transactions generated in a network. The individual blocksof the transactions are recorded in the register as legitimate blockslinked like a chain by storing, on the inside of the blocks, in additionto contents of the transactions, hash values of contents of blocksgenerated before the blocks.

When a new block is added to the blockchain, it is guaranteed that achain of blocks, legitimacy of which is verified, is formed by causing aminer to perform mining.

When consensus building by the mining is performed, the chain by thelegitimate blocks is distributed and accumulated in a database andprevention of falsification and security of data are guaranteed. Notethat there has been known a method of giving a reward to a participantin the mining who first confirms whether illegality is absent in contentof a transaction among participants in the mining and giving authorityto update the database to the participant. However, a mining method isnot limited. Any mining method can be adopted if consensus building oflegitimacy can be obtained and an illegal block is less likely to beinserted into the chain.

As the blockchain, besides an open type (or a public type) used inbitcoins, a closed type (a private type) blockchain that limitsparticipants is known. In the present invention, the blockchains of boththe types can be used. There are various forms as the blockchain in thisway. However, the blockchain is not limited if the present invention canbe earned out.

Respective transactions can be performed using, for example. P2Pcommunication. The P2P communication can use, for example, the Internet,a mobile communication network, and a dedicated communication line.However, this is illustration. Communication other than the P2Pcommunication may be used. As an information processing device thatperforms a transaction, a personal computer and portable informationprocessing devices such as a smartphone and a tablet can be used.However the information processing device is not limited to this.

A technology using a blockchain is used in a bitcoin, which is a virtualcurrency. In a transaction register of the virtual currency, blocks oftransaction data of the virtual currency (for example, an amount of avirtual currency set as a transaction target, a payment destinationaddress of the virtual currency of a user, a public key used to generatethe payment destination address of the user, a hash value of a basicfund or the like of the currency) are created and recorded on a chain ina blockchain network.

Security of the transaction data is guaranteed by using the hash valueand a public key encryption system. The transaction data is widelydistributed in order to cause the miner to verify legitimacy, wherebylegitimacy of the transaction data is monitored.

The present invention uses the blockchain to, while using legitimacy ofblocks recorded in a register of the blockchain, facilitate use of datareferred to in the blocks. For example, by using the blockchain, inorder to achieve confidentiality of data while guaranteeing legitimacyof a history of transactions of data, the use may be limited topredetermined permitted specific users or specific users and specificinformation processing devices. As data stored in the blockchain, it ispossible to adopt a configuration in which actual transaction targetdata is absent in blocks of the blockchain and the blocks have structureor data, for example, a pointer that can refer to the actual transactiontarget data.

FIG. 1 shows an example of the configuration of an asset data usagesystem 1 according to the present invention.

As a premise, between a user of an information processing device 20 forthe user and a user of the information processing device 10, it isnecessary to build, for the user, consensus of provision of informationconcerning the user used or managed the an information processing device10 for a provider.

By building the consensus, the information processing device 10 for theprovider can provide activity data of the user to the user.

In the information processing device 20 used by the user, authenticationregistration of the user individual is completed in advance. A useridentifier (UID), which is identification information of the user, isallocated to the information processing device 20. Further, a terminal(device) identifier DID, which is identification information of theinformation processing device 20 for the user, is further uniquelyregistered in the information processing device 20 for the user.

Further, for the user, a blockchain address (also referred to as “BCNaddress” or “BCN Add” for simplification) for enabling register entry ona blockchain (BCN 50 in FIG. 1 ) is registered in advance. Datacommunication is set up to be electronically possible by the informationprocessing device 20 for the user and the information processing device10 for the provider respectively between the user and the provider.

A step for providing activity data of a user individual to the user isexplained below.

In parallel to or before or after step (3), in order to disclose anaddress of the user on the blockchain network (BCN 50) to the provider,the user transmits a BCN address (BNC Ads) of the user from theinformation processing device 20 of the user to the informationprocessing device 10 for the provider (step (1)).

If data related to the user is stored in a certain storage device 90, inresponse to step (1) or independently from step (1), the informationprocessing device 10 for the provider acquires the data of the user fromthe storage device 90, which is a storage place of the data (step (3)).The information processing device 10 for the provider generates, fromthe received data, a data set of actual values (data) corresponding toone or a plurality of data items according to a predetermined dataformat (step (2)-1) and stores the data set in (uploads the data set to)the storage device 30 as transaction data (TR) (step (2)-2).

What kinds of item are added as elements of the data set is determinedas appropriate according to a condition such as consensus contentbetween the user and the provider or an item that the provider canprovide, or an item desired by the user.

In the information processing device 10 for the provider and theinformation processing device 20 for the user, application programs forselection for data provision by the information processing devices isstored in memoires of the information processing devices. Theapplication programs are executed by the respective processing devices.Data items added to the transaction data (TR) are selected. In responseto the selection, data corresponding to the data items is dropped intothe transaction data (TR) according to a predetermined format.

Content of the actual data dropped into the transaction data (TR) isdescribed in a format that can be read according to an item of the dataas the transaction data (TR). Therefore, besides the informationprocessing device 10 for the provider, the information processing device20 for the user and a terminal of a third party can read the data. Asthe format, for example, a JSON format can be used.

The information processing device 10 for the provider further includes aprogram for generating the transaction data (TR) and generating themaster data (MA) from the transaction data (TR). Note that theinformation processing device 10 for the provider is a side thatperforms provision of data to the user and the user is a side thatreceives the data. However, as explained below, the user can be a sidethat can provide the received data. Therefore, functions of theapplication programs of the information processing device 20 for theuser and the information processing device 10 for the provider may bedifferent. However, the information processing device 20 for the userand the information processing device 10 for the provider do not need toalways include the application programs having different functions. Theinformation processing device 20 for the user and the informationprocessing device 10 for the provider can include application programshaving the same function or application programs for executing any oneof functions explained below. That is, it should be recognized thatanother information processing device for a purpose of use of a functionexplained about a certain information processing device is likely tohave the function. A storage device may take over execution of a part ofthe functions, for example, the generation of the transaction data (TR)and the master data (MA).

When receiving the BCN address (BCN Add) of the user in step (1), theinformation processing device 10 for the provider transmits the BCNaddress (BCN Add) and a data resource identifier (SID) for specifying adata resource to the storage device 30. The information processingdevice 10 for the provider receiving the BCN address (BCN Add) and thedata resource identifier (SID) generates an access ticket (ACT). Notethat, if a provision source of data can be specified, the data resourceidentifier (SID) is not limited to a terminal (device) identifier DID ofthe information processing device 20 for the user and may be anidentifier of the storage device 30. Data is sometimes widelydistributed and present in the storage device as in a secretdistribution storage device. However, the data resource identifier (SID)may be any identifier if the data in the storage device can be referredto.

The access ticket (ACT) is data to be recorded in a blockchain of theuser.

FIG. 3 is a data configuration diagram of the access ticket (ACT) in anembodiment according to the present invention.

The access ticket (ACT) is a hash value of predetermined data adapted toa blockchain. Data serving as elements of the access ticket (ACT) is ahash value of the BCN address (BCN Add) of the user, a data resourceidentifier (SID), and a secrete character string corresponding to thedata resource identifier (SID). The hash value, the data resourceidentifier (SID), and the secrete character string are hashed by a hashfunction. A 128-bit hash value is obtained by using, for example. MD5 asthe hash function. Consequently, the access ticket (ACT) is entered inthe blockchain network (BCN) as a fixed-length access ticket (ACT). Notethat, although not shown in FIG. 1 , the information processing device10 for the provider may separately inform the issuance of the accessticket (ACT) to the information processing device 20 for the user.Registration in the blockchain network (BCN) may be performed throughthe information processing device 20 for the user.

Since the data is issued, data from the data resource identifier (SID)is prepared for the user. It is indicated that the user has authorityfor obtaining the data.

The user becomes capable of accessing, with the access ticket (ACT), thetransaction data (TR) and the master data (MA) generated from thetransaction data (TR) present in the storage device 30 managed by theinformation processing device 10 for the provider.

The transaction data (TR) and the master data (MA) have a predeterminedformat in order to enable reference to and operation of data by the userand provision of the data to another third party.

Original data for the provider to provide data is often separatelypresent as activity data at different times of the user. Therefore, aplurality of transaction data (TR) that are the same type but correspondto the respective original data may be prepared. The original data forthe provider to provide data also includes activity data of differenttypes. Recording items of the data are sometimes different from eachother. Therefore, different transaction data (TR) having the same basicform but having different record lengths and different data items to berecorded may be prepared.

Individual data is not always requested once from the informationprocessing device 20 for the user. The individual data is sometimesrequested to the information processing device 10 for the provider attime intervals such that individual data generated every time activityis performed can be received.

In this way, the transaction data (TR) generated by the storage device30 can be generated as one or a plurality of transaction data (TR).

In FIG. 1 , to simplify explanation, an example is explained in whichone master data (MA) is created from one transaction data (TR) andprovided to the user.

The storage device 30 includes a program or a macro command stored in anot-shown memory. The program or the macro command is executed by aprocessing device included in the storage device 30. Note that theprogram includes the macro command. The macro command is only separatelyused to make explanation clear for convenience.

When receiving, from the information processing device 10 for theprovider, the BCN address (BCN Add) and the data resource identifier(SID) indicating the data provision source of the data to theinformation processing device 20 for the user, the program or the macrocommand generates the access ticket (ACT) based on information of theBCN address (BCN Add) and the data resource identifier (SID (step (4)).Note that the storage device 30 may generate the master data (MA) basedon the transaction data (TR) (step (5)). The program or the macrocommand returns the access ticket (ACT) to the information processingdevice 10 for the provider (step (4)-1).

As explained above, the access ticket (ACT) gives authority for enablingthe user to refer to and download the data used or managed by theinformation processing device 10 for the provider. The access ticket(ACT) is issued via the information processing device 10 for theprovider (step (4)-2).

A transmission destination of the access ticket (ACT) is the BCN address(BCN Add) of the user provided from the information processing device20. The user can acquire the access ticket (ACT) through the informationprocessing device 20 for the user by accessing the BCN 50 (step (6)).

The data resource identifier (SID) is stored in the acquired accessticket (ACT). Therefore, the user can download the master data (MA) tothe memory 21 of the information processing device 20 for the userreferring to information of the master data (MA) stored in the storagedevice 30 based on information of the data resource identifier (SID) viathe information processing device 10 for the provider or directly (step(7)).

As explained above, the transaction data (TR) is not always onetransaction data. A plurality of transaction data TR(1) to TR(n)generated in time series could be present. A plurality of data requestsRI to Rn may be received at time intervals according to separaterequests from the user. FIG. 2 shows a conceptual diagram in which theplurality of data requests RI to Rn are received and master data MA(1)to MA(n) are generated by generation processing G1 to Gn respectivelycorresponding to the data requests R1 to Rn.

Each of the generated master data MA(1) to MA(n) may be provided to theuser as an added asset. The access ticket (ACT) may be transmitted tothe BCN address (BCN Add) in response to the data requests R1 to Rn suchthat the user can refer to and acquire the master data MA(1) to MA(n).The user may be enabled to access the master data MA(1) to MA(n).

In the bitcoin, a token of a transaction is issued to a BCN to form ablockchain of the token as a register. Blocks are linked in time seriesof the transaction. On the other hand, in an example according to thepresent invention, a chain of blocks of the access ticket (ACT) isregistered in a register. The blocks are linked in time series.

FIG. 4 is a data configuration diagram of the transaction data (TR) andthe master data (MA) in the embodiment according to the presentinvention.

Components of the transaction data (TR) and the master data (MA) includecontent of the access ticket (ACT) issued to the user in order toindicate that the transaction data (TR) and the master data (MA) aredata generated in response to a request of the user.

The user can obtain, with the information processing device 10 for theprovider, an access right to the master data (MA) using the accessticket (ACT). The access ticket (ACT) includes information of the dataresource identifier (SID) (see FIG. 3 ). The information processingdevice 20 for the user is capable of accessing data referring to theinformation.

Basic components of the master data (MA) and the transaction data (TR)include a data section and an additional data section other than theaccess ticket (ACT) (see FIG. 4 ).

FIG. 5A shows components of a data section of the master data (MA) andthe transaction data (TR). The data section can be divided into a dataheader section and a data body section.

The data header section is configured from a user identifier (UID), aterminal (device) identifier DID, and a data resource identifier (SID).

On the other hand, the data body section is configured from data(values) of 1 to k items of the individual. A value of k is any number.Therefore, a data length of the data section does not need to be fixed.In the data body section, a timestamp indicating date and time when thetransaction data (TR) or the master data (MA) is created is furtherprovided. Consequently, it is possible to manage the transaction data(TR) and the master data (MA) in generation order.

FIG. 5B further shows additional data. The additional data is configuredfrom a transmission address indicating a transmission destination ofdata (for example, the BCN address of the user) and ACL conditionsdefining browsing conditions (access conditions) for the data.

The ACL conditions include “start time” indicating an accessible firsttime, “end time” indicating an accessible last time, and “number oftimes of browsing” for limiting the number of times of browsing. Notethat the access conditions are an example and may be configured from avariety of access conditions or combinations of the access conditions.In the information processing device, an application program capable ofproviding an interface with which the user can input these conditionsmay be provided such that the user can set these conditions.

Note that both of the transaction data (TR) and the master data (MA) areexplained above. However, both the data do not always need to have thesame configuration. A data type item for easily distinguish thetransaction data (TR) or the master data (MA) may separately added toeach of the transaction data (TR) and the master data (MA). Theadditional data may be separated and stored in the storage device 30without being included in the data configuration of the transaction data(TR) and the master data (MA). When the additional data is separated,the additional data is enabled to be associated with the transactiondata (TR) or the master data (MA) and is managed by a program of thestorage device 30 or an application program of the informationprocessing device 10.

The above explanation is based on the premise that individualauthentication is already performed. However, the information processingdevice 10 for the provider and the information processing device 20 forthe user have a function of authenticating whether a person about to usethe terminal is a legitimate user. For example, the informationprocessing device 20 for the user has a biological authenticationfunction such as fingerprint or voiceprint authentication or bloodvessel authentication and uniquely associates authentication data of theauthentication and an individual to achieve personal authentication.When the personal authentication is performed and the person isspecified as the legitimate user, the application program installed inthe information processing device 20 permits execution of theapplication program.

As shown in FIG. 1 , the asset data usage system 1 provides data fromthe information processing device 10 to the information processingdevice 20 using the information processing device 10 for the provider ofthe data and the information processing device 20 for the user of thedata.

Further, as shown in FIG. 6 , the asset data usage system 1 may includean information processing device 60 for a third party for, when data isprovided to the information processing device 20 for the user, furtherseparately providing the data. A process of provision of data from theinformation processing device 20 for the user to the informationprocessing device 60 for the third party is basically the same as theprocess of the provision of data from the information processing device10 for the provider to the information processing device 20 for theuser. Note that, if data is simply provided, a BCN address (BCN Add)only has to be the BCN address (BCN add) used by the user. An accessticket (ACT) is the access ticket (ACT) created by the storage device 40for the user.

The BCN address (BCN Add) can be generated by the application program ofthe information processing device 20 for the user. The access ticket(ACT) can be generated from information of the terminal (device)identifier DID of the information processing device 20 for the user.Specifically, in a relatively early stage before provision of data fromthe user is performed, the BCN address (BCN Add) and the access ticket(ACT) are generated as explained below.

First, the local application program of the information processingdevice 20 for the user transmits a user identifier (UID) to the storagedevice 40 for the user and instructs generation of a secret key. Aprogram or a macro command stored in the storage device 40 for the userperforms generation of a public key and a secret key in response to theinstruction. In response to the generation of the public key and thesecret key, the application program of the information processing device20 for the user generates a BCN address (BCN Add). The storage device 40for the user receives and hashes the generated BCN address (BCN Add),generates hash values of a hash value of the BCN address (BCN Add), adata resource identifier (SID) indicating the terminal (device)identifier DID of the information processing device 20 for the user, anda secret character string of the data resource identifier (SID) and setsthe hash values as an access ticket (ACT). Note that, as explained aboveabout the storage device 30. if the data of the storage device 40 forthe user can be referred to, the data resource identifier (SID) does notalways need to be the terminal (device) identifier DID of theinformation processing device 20 itself and may be an identifier of thedevice itself of the storage device. Alternatively, information that canspecify data according to a secret distribution storage only has to beused.

Referring back to the data transmission from the information processingdevice 20 for the user to the information processing device 60 for thethird party, the access ticket (ACT) can be notified to the informationprocessing device 60 for the third party. At the same time, master data(MA) to be provided to the information processing device 60 for thethird party is generated from the transaction data (TR).

The information processing device 60 for the third party can acquiredata of the master data (MA) in the storage device 40 for the user viathe BCN address (BCN Add). The third party is capable of storing thedata in a storage device used in the information processing device 60and achieving common use of the data according to necessity.

FIG. 7 shows a relation of mutual linkage by contents of the accessticket (ACT) registered in the blockchain 50 and the terminal (device)identifier DID and the user identifier (UID) of the informationprocessing device 20 for the user and the master data (MA) of thestorage device 30.

A data resource identifier (SID) is described in a plurality of accesstickets (ACT) linked like a chain. The data resource identifier (SID)functions as a pointer for substantially designating the storage device30 managed by the information processing device 10 for the provider.Further, in the master data (MA) recorded in the storage device 30. auser identifier (UID) and a terminal (device) identifier DID aredescribed as elements of a data header section. The user identifier(UID) and the terminal (device) identifier DID function as pointers ofthe information processing device 20 for the user. The informationprocessing device 20 authenticates the user with the user identifier(UID) and generates a BCN address (BCN Add) with the user identifier(UID). The user identifier (UID) is a pointer of the access ticket (ACT)on the BCN address (BCN Add).

Such a relation is maintained. Consensus concerning legitimacy of theaccess ticket (ACT) is built on the BCN address (BCN Add). Further, thestorage device 30 and the storage device 40 that store the transactiondata (TR) and the master data (MA) are desirably secret distributionstorage devices. Since data is distributed and managed, confidentialityand security of the data are further maintained.

An environment for providing data is already arranged on the blockchain50 for the information processing device 20 for the user. Every time theinformation processing device 20 for the user posts data of apredetermined form based on specifications of the environment to theblockchain 50, a chain of the data is formed by a hash value on theblockchain 50. Security of the data is secured.

Since a size of the data provided on the data chain is limited, actualdata corresponding to the data can be stored in the storage device 30 orthe storage device 40 for the user.

FIG. 8 is a conceptual diagram for generating master data fromtransaction data of different types generated in time series, performingmerging of the master data (MA) of the different types, and generatingnew master data (MA).

The vertical axis indicates elapse of time. The time can be set to, forexample, time when the transaction data (TR) and the master data (MA)are generated. The time is indicated by a timestamp, which is a dataelement of the time. As the transaction data (TR), two types oftransaction data TR_A(m) and TR_B(n) (m and n indicate numbers inelapsed time order) are generated. Every time the transaction dataTR_A(m) and TR_B(n) are generated, master data MA_A(m) and MA_B(n) aregenerated. Further, when master data (MA) of different types arerespectively generated, the generated master data (MA) is merged and newmaster data MA_C(h) (h indicates a number in elapsed time order) isgenerated. Note that, as it is understood from this, the master data(MA) is also used as the transaction data (TR) for generating the nextmaster data (MA).

Referring to FIG. 1 , the transaction data TR_A(m) and TR_B(m) aresometime generated in the storage device 30 used by the informationprocessing device 10. However, it is also likely that the transactiondata TR_A(m) and TR_B(m) are generated in a different storage deviceused by a different information processing device. That depends on howthe data of the user is managed on the outside.

When the transaction data TR_A(m) and TR_B(n) of different types aregenerated in the same storage device, for example, master data MA_C(h)merged by the same user identifier (UID) may be generated in the samestorage device. Alternatively, the master data (MA) (for example,MA_A(2) and MA_B(1)) obtained from the transaction data (TR) of the sametype by the method explained above may be stored in the storage device40 used by the information processing device 20 for the user. The masterdata (MA) (for example, MA_C(1)) obtained by merging the master data(MA) may be generated.

The merged master data (MA) is different from an existing data resourcebecause the storage device side in which the master data (MA) isgenerated becomes a new resource. Therefore, the data resourceidentifier (SID) is changed to a data resource identifier (SID) withwhich the master data (MA) generated anew can be referred to.

In this way, a plurality of types of transaction data (TR) can beacquired from the same data resource or from a plurality of dataresources. Since the plurality of types of transaction data (TR) can beacquired from the plurality of data resources, the transaction data (TR)can be used as new data that complements data of the data resources eachother. A rule of the merging is different depending on with what kind ofdata the merging is performed. The rule only has to be determined asappropriate according to an item of data. For example, a new master data(MA) can be generated in which a new data item indicating a differentindicator is created from a data item of master data (MA) of a typedifferent from certain master data (MA). Examples of the generation ofthe new data item includes merging respective data from a data resourceconcerning exercise data and a data resource concerning meal data togenerate new data including calorie calculation.

As it is understood from FIG. 1 and FIG. 6 and the explanation of thefigures, the application program of the information processing device 20for the user can include two large functions of reception of data fromthe information processing device 10 (including the storage device 30)for the provider and provision of data to the third party. For thereception of the data, it is possible to refer to an access ticket (ACT)or a history of the access ticket (ACT) transmitted from the informationprocessing device 10 for the provider through the blockchain and performacquisition of data from the information processing device 10 for theuser or upload data included in a processing device of the user to astorage device (desirably a secrete distribution storage; the sameapplies below) used by the processing device of the user. As explainedabove, the information processing device 20 for the user is also capableof providing data like the information processing device 10 for theprovider. The information processing device 20 for the user can includea function of not only generating data using a BCN address (BCN Add) ofthe user and providing the data to the third party but also providingthe data using a BCN address (BCN Add) of the partner. The user mayconfirm distributed slips chained by the BCN address (BCN Add) of theuser to make it possible to preview even a history of the distributedslips.

It is undesirable to cause a normal user to perform such fine steps ofthe processing. Therefore, to prevent complication for a user, a userinterface for grouping a series of procedures on a display screen of theinformation processing device 20 for the user to enable the user toperform the series of procedures with one button or perform the seriesof procedures with simple operation is provided by an applicationprogram.

FIG. 9 is a conceptual diagram of a medical information utilizationsystem for achieving utilization of medical data as one of examplesaccording to the present invention. The medical information utilizationsystem is configured to acquire the plurality of types of transactiondata (TR) shown in FIG. 8 from different institutions.

A center portion of FIG. 9 indicates a user. A medical institution, amedical data cloud, and a healthcare company on the left are medicalgroups used by the user (where the user performs activity). Usually, themedical groups respectively have different medical data. The medicaldata are acquired in a secret distribution storage of the user. The dataare merged to generate a new master data (MA) according to necessity.

As medical data concerning the body and the mind of an individual, dataof a plurality of various types are present. There are, for example,medical data accumulated as an intra-hospital database of a medicalinstitution such as a hospital, stored medical data of a medical datacloud accessed and used by the medical institution, and data accumulatedby a company that performs healthcare for individuals (for example, acompany that performs a service for supporting measures for mentalhealth and measures against life style related diseases).

First, to enable an individual to aggregate and manage medical data ofthe individual himself or herself distributed to places and services,prior consensus building for exchange of electronic data with a cloudsystem and a database system functioning as information resources ofthese medical data is performed. Note that the medical data may widelyinclude medical data irrespective of types and contents of the medicaldata as long as the medical data include information concerning healthof the individual.

Consensus building for data provision is performed with the medicalinstitution and the healthcare company for the data stored in the secretdistribution storage of the user based on the consensus building. It ispossible to provide requested data from the secret distribution storageof the user to the medical institution and the health care company.

To appropriately keep the consensus building, a blockchain network isused in order to secure reliability of authentication of a genuineindividual and legitimate data not falsified. Falsification of data ismade practically impossible by chaining to secure reliability of thedata. Data sent to a blockchain is not actually medical data. Themedical data is indicated by a pointer register-recorded in theblockchain network. Since the end of the pointer is the secretdistribution storage, the data is distributed and maintenance ofconfidentiality and difficulty of falsification are secured. Even if thedata is partially damaged or lost, it is possible to cope with thedamage or the loss.

Data can be collected in units of data resource provision. Even if newdata and update of the data are further added, the data can beconfigured as one record by the blockchain. It is possible to browsemedical related data of the individual from data in the past to thelatest data.

For example, periodical medical examination data of Mr. A can bereferred to in one record on a BCN. Therefore, it is possible to browsethe medical examination data retroactively from the latest medicalexamination data to medical examination data in the past.

Further, as explained above as the merging, it is possible to combinedifferent data to generate new data. Pointers for referring to the datain the past and the new data can be connected by a chain on theblockchain network (BCN). Since the reference pointers of the dataincluding the new data and the data in the past are not broken, it isalso possible to suppress a loss of medical data.

Generation of transaction data (TR) and master data (MA) generated fromthe transaction data (TR) is explained using medical data as an examplewith reference to FIG. 10A and FIG. 10B.

FIG. 10A and FIG. 10B show only data body sections of the transactiondata (TR) and the master data (MA). One item may be present in the databody sections. However, usually, a plurality of data items are presentas in this example.

In an example shown in FIG. 10A, two types of transaction data TRA andTR_B are present. To facilitate understanding, numbers in parenthesesare added to the transaction data TR_A and TR_B in generation time orderthereof. Note that the transaction data TR_A is biodata obtained basedon “physical examination”. The transaction data TR_B is biodata obtainedbased on measurement of “vital”.

Therefore, the respective types of the transaction data TR_A and TR_Binclude different data items and include individual data (or values) foreach of the data items. Note that portions where individual data is notobtained are indicated by “null”. That is, the transaction data (TR) isa dataset obtained by combining data of a plurality of items concerningan individual. A plurality of transaction data (TR) indicate a historyof the data set.

What are indicated by the items and in which unit they are indicated aremanaged by an application program installed in an information processingdevice itself or a memory or a storage device included in theinformation processing device. Data of the date items are associatedwith data of which items the data indicates.

Master data (MA) is generated for each transaction data (TR). The masterdata (MA) and the transaction data (TR) are indicated by the same numberto show a correspondence relation between the master data (MA) and thetransaction data (TR).

Data nearest to the master data (MA) desirably indicates the latest dataof data of the individual. Therefore, concerning the data items, nearestmaster data (MA) is ruled and programmed to indicate the latest dataamong transaction data (TR) in the past. However, the portions of “null”are neglected because the data is not obtained. That is, in a pluralityof data sets (TR), which are a history concerning the individual, itemsindicate the latest data among a data set of history data of the items.

For example, in the first transaction data TR(1), master data MA(1) isgenerated using the data. In the next transaction data TR(2), masterdata MA(2) generated according to the transaction data TR(2) isgenerated by combining the transaction data TR(2) and the master dataMA(1) preceding the master data MA(2). The latest data is shownconcerning the data items while neglecting the portions of “null”.

When receiving an instruction for generating the master data (MA), theprogram generates the master data (MA) according to such a rule. FIG.10A shows data contents of the transaction data (TR) and the master data(MA).

Besides the update to the master data (MA), the program has a functionof merging, that is, a combination processing function of the masterdata (MA). An example of the function is shown in FIG. 10B.

In “generated master data (MA)” in FIG. 10B, master data (MA_A and MA_B)generated according to two types of transaction data TR_A and TR)B inFIG. 10A are arranged in generation order of the transaction data (TR).

In “master data (MA) to be generated anew”, master data MA_C generatedanew in the arrangement order is shown. A rule for generating the masterdata MA_C. is the same as the rule shown in FIG. 10A.

Note that a plurality of types of master data (MA) are sometimesobtained from different data resource identifiers. However, if useridentifiers (UID) present in the master data (MA) are referred to, it ispossible to combine only the master data (MA) of the same user togenerate new master data (MA).

The combination and generation by the master data (MA) may be programmedto be higher-degree processing rather than simply reading content (data)of a data item corresponding to the master data (MA). Weight of body fat(kg) and body weight (kg) may be set as data items of the transactiondata (TR). As a combination and generation program for the weight ofbody fat and the body weight, a calculation program of weight of bodyfat (kg) 4- body weight (kg) x 100 may be provided. A body fat ratio(%), which is a calculation result, may be set as data of a data itemgenerated anew. In this way, the combination and generation program maybe provided as appropriate according to a purpose of the program. It isalso possible to perform higher-degree data utilization by performingdata combination and generation from different user identifiers (UID).

As it is understood from the above explanation, if the user describes,in content of the access ticket (ACT), an identifier of a storage deviceused by the user or the processing device 20 of the user that managesthe storage device and register-records the identifier with respect to aBCN address of the user, the user can also refer to the latest data anddata in the past of the user from the storage device. The user can alsoprovide data of the user to the third party. Buttons such as an“examination result” button, a “pass to a doctor” button, and a “resultin the past” button may be prepared on an operation screen as userinterfaces to enable the user to easily operate these kinds ofprocessing.

In order to safely perform mutual data exchange with the provider andthe third party via the blockchain network (BCN), the blockchain address(BCN Add) may be converted into a QR code (registered trademark). Theapplication program may read the QR code (registered trademark) with acamera provided in the information processing device and transmit the QRcode (registered trademark) to a partner destination as a BCN address.

As explained above, it is understood that a plurality of data atdifferent times can be stored in the storage device 30 for the user ofthe information processing device 20 to enable the user to use the data.That is, an environment in which the user can electronically unitarilymanage and store individual data such as a health state by himself orherself is arranged. The user can acquire data corresponding to elapseof time.

The data that can be managed in time series is not limited to medicaldata indicating a health state such as a periodical health examinationresult that changes as years and months pass and may be generalindividual data that changes according to elapse of time.

By having such data in time series also for symptoms of a patient,determination of which is difficult only with a simple present healthexamination result, it is possible to provide appropriate medicaltreatment according to health states in the past and a medical carehistory.

Note that the aggregated data from the past to the present isregister-managed by the linked access ticket (ACT) and can be referredto. Therefore, the data from the past to the present may bedistributedly stored in a plurality of storage devices 30.

The features of the present invention are obvious from the abovedescription of this specification. It is understood that a moreappropriate advice can be provided by a doctor and the like engaged inmedical treatment and health promotion by referring to data as a whole.

When there are an extremely large number of data, it is understood thatan advice of the data is hindered to the contrary. This occurs not onlyin medical treatment. What kind of various data are selected asmaterials of determination is extremely important when seeking, in manyfields, more appropriate prescription and various advices to anindividual.

As explained with reference to FIG. 1 , the data of the legitimate userpersonally authenticated by the information processing device 20 isstored in the storage device 30 and can be referred to by the registerof the linked access ticket (ACT) on the blockchain network (BCN).Further, as shown in FIG. 1 and FIG. 6 , it is explained that theindividual data is created in the storage device 40 for the user and theindividual data can be accessed by the information processing device 60for the third party as well with reference to the access ticket (ACT) onthe blockchain network (BCN).

Data of the storage device 40 for the user accessible by the informationprocessing device 60 for the third party can be used for new activity ofthe user of the information processing device 20. The user is alsocapable of receiving more useful information and service from the thirdparty of the information processing device 60 by providing data to theinformation processing device 60 for the third party.

The information could be information effective for use of other users ifconsent of the user is obtained. Therefore, the width of effective useof the data of the user himself or herself expands and a value of thedata itself is improved.

The information processing device 60 for the third party is aninformation processing system such as an AI (artificial intelligence)system by machine learning developing in these days or a program or asystem executed on a blockchain based on a contract of both parties. Theinformation processing device 60 for the third party could include asmart contract or the like automated to a high degree for answering toan inquiry.

The information processing device 60 may be automated to a high degreeor may be operated to reply to the received data according to operationby an expert.

If the information processing device 60 is an AI (artificialintelligence) system, the user is also capable of receiving, with aninquiry to the AI (artificial intelligence) system, an answer by the AIbased on data provided by the user.

On the other hand, requests of the user of the information processingdevice 20 for the user are various. Further, for example, when themedical data is collected from the plurality of institutions and storedin the storage device 30 as shown in FIG. 9 , it is not easy for anindividual to determine how to use those data.

Therefore, it is necessary to provide new means for delivering datastored in the storage device 30 to the information processing device 60to allow the user to easily use the data.

FIG. 11 shows the configuration of a basic system of the individualasset data utilization system.

FIG. 11 and FIGS. 1 and 6 are basically different in that, in FIG. 11 ,an auxiliary system 100 is provided to be interposed between the storagedevice 30 and the storage device 40 for the user and a storage device120 that stores answer data from the information processing device 60 isfurther provided.

The auxiliary system 100 is mutually communicable with the informationprocessing device 20 for the user and accessible from the user. Theauxiliary system 100 extracts stored data from the storage device 30according to inquiry content from the information processing device 20for the user and converts the data into processed data for processing inthe information processing device 60. The processed data can begenerated according to a purpose of the user of the informationprocessing device 20. The auxiliary system 100 includes a memory forstoring an application program for executing a function explained below.Of a function of the application program stored in the auxiliary system100 to be performed in cooperation with the information processingdevice 20 for the user and a function of the application program storedin the memory of the information processing device 20, conceding afunction that can be shared by the auxiliary system 100 and theinformation processing device 20 for the user, to which of the auxiliarysystem 100 and the information processing device 20 for the user thefunction is imparted may be selected as appropriate.

The generated processed data is stored in the storage device 40 for theuser and can be provided to the information processing device 60 by, forexample, the same method as the method explained with reference to FIG.6 . At this time, the information processing device 60 also receivesdata concerning an inquiry of the user from the information processingdevice 20. The information processing device 60 may directly receive theinquiry of the user from the information processing device 20 or mayreceive the inquiry of the user from the auxiliary system 100. Theinformation processing device 60 may directly receive the processed datafrom the auxiliary system 100 or may receive the processed data from theinformation processing device 20.

The information processing device 60 generates answer data from thereceived processed data according to the inquiry content of the user.The answer data is stored in the storage device 120. In this case, thestorage device 120 may be the storage device 40 for the user or may be aseparate storage device. History data of the storage device 120 may beadded to the register for the user of the information processing device20 as a new access ticket (ACT) in the blockchain 50. As explainedabove, the storage device 120 may be a distributed storage.

By being added to a distributed register of the blockchain, theinformation processing device 20 for the user may be able to refer to,as one of transactions, the answer data obtained from the informationprocessing device 60 or may be able to acquire the data.

The data stored in the storage device 120 may be able to be transferredto the auxiliary system 100 or referred to by the auxiliary system 100or may be able to be acquired. The auxiliary system 100 may be set to beaccessible to the data stored in the storage device 120 with referenceto a blockchain for the user of the information processing device 20.

By forming this feedback, the auxiliary system 100 can verify the datadelivered from the storage device 40 for the user to the informationprocessing device 60. For example, new data created after the data usedfor creating the processed data by the auxiliary system 100 can bestored in the storage device 30. Therefore, the auxiliary system 100 canacquire data following the data and verify appropriateness of an answerreceived from the information processing device 60. For example, when adisease name of the user of the information processing device 20answered by the information processing device 60 is a disease name A andan actual disease name of the user stored in the storage device 30 lateris a disease name B, the answer of a wrong disease name is obtained. Theauxiliary system 100 side may verify this mistake and change, such thata more appropriate answer can be obtained later, selection of data thatshould be extracted. In some case, the auxiliary system 100 side mayrequest the information processing device 20 to deliver lacking data.

That is, the auxiliary system 100 can be configured to analyze inquirycontent from the information processing device 20, determine which datais extracted from the storage device 30. determine into what kinds ofdata the data is processed, and compare the data with answer dataacquired from the information processing device 60 and verify whetherthe reply data is appropriate. Naturally, the auxiliary system 100 maybe an information processing device or system configured toautomatically perform those functions, may be configured to be operableto perform necessary data processing according to operation of an expertrelated to content of data to be inquired, may be configured to beremotely operable from the user via the information processing device20. or may be configured by combining those configurations. If theauxiliary system 100 and the information processing device 60 areimplemented with the AI technology, an AI-to-AI dialog is performedbetween the auxiliary system 100 and the information processing device60. Provision and an answer of more appropriate data can be obtained bymutual deep learning.

Data of user individuals from one or a plurality of institutions can bestored in one or a plurality of storage devices 30. This data isindividual data. The access ticket (ACT) configuring the register on theblockchain 50 also has information for specifying an individual.

Further, not only in medical treatment, since individual data hasconfidentiality, data from which an individual can be specified has tobe prevented from attracting wide public attention.

FIG. 12 discloses an example of a configuration for, before providingindividual information that should be concealed to the informationprocessing device 60, performing anonymization of the individualinformation based on the basic configuration shown in FIG. 11 .

A part above a broken line indicates a non-anonymized region and a partbelow the broken line indicates an anonymized region.

Individual data for the user of the information processing device 20 inthe storage device 30 can be referred to by the access ticket (ACT) onthe blockchain 50 shown in FIG. 7 . An application of the informationprocessing device 20 for the user can access the individual data in thestorage device 30 referring a blockchain (BC) formed by the accessticket (ACT). Note that, in this example, an example is explained inwhich transaction data (TR) and master data (MA) generated according toelapse of time are formed in distributed storage devices 30(1) to 30(m)(hereinafter simply referred to as “storage devices 30”).

FIG. 12 is different from FIG. 11 in that the individual data of theuser of the information processing device 20 is stored in the storagedevice 40 as anonymized data (hereinafter, anonymous data) and theanswer data in the information processing device 60 is also stored inthe storage device 120 as anonymous data. Therefore, a blockchain by anaccess ticket (ACT) for referring to the anonymous data of the userstored in the storage device 40 is separately provided on the BCN. Thisanonymous data is unique data, although an individual cannot bespecified from information of the anonymous data itself. An individualcan be identified from the anonymous data on the application of theinformation processing device 20 for the user that authenticates theuser individual.

The auxiliary system 100 generates anonymous data from the individualdata stored in the storage device 30 as processed data provided to theinformation processing device 60. In order to refer to the anonymousdata, instead of the blockchain (BC) described above, a blockchain (ABC(anonymous BC)) configured from an anonymous access ticket (AACT(anonymous ACT)) is formed in an address on a BCN registered by the userof the information processing device 20.

This anonymous access ticket (AACT) can also be generated by theapplication of the information processing device 20 for the user insteadof the auxiliary system 100. The application can access the anonymizeddata in the storage device 40 referring to the access ticket (AACT) ofthe blockchain ABC (anonymous BC) on the anonymized region side. Notethat the anonymized region and the non-anonymized region do not need tobe physically present and are conceptually explained to facilitateunderstanding of the present invention.

The application manages individual authentication information andenables, on condition that a user is personally authenticated, the userto refer to the access ticket (AACT) in the anonymized region of theuser in addition to the access ticket (ACT) in the non-anonymized regionof the user explained above. Note that, in preparation for anun-authenticatable state, an authentication number or the like foractivate may be presented on a display of the information processingdevice 20 for the user in advance such that a legitimate individual canaccess data of the individual using the application. Consequently, evenif the individual has to use another information processing device, theindividual is enabled to use the application on the new informationprocessing device by using the prepared authentication number foractivate.

Explaining more in detail with reference to FIG. 12 , individual data ofthe user of the information processing device 20 stored in storagedevices 90(i) to 90(n) managed in a plurality of institutions aregenerated in the storage device 30 as a series of transaction data (TR)usable by the information processing device 20 for the user and masterdata (MA) generated from the transaction data (TR) through consensusbuilding between the user and the plurality of institutions. Theinformation processing device 20 for the user generates a blockchainregister of an access ticket (ACT) in an address on a blockchain networkusable by the user. A plurality of access tickets (ACTs) linked like achain have pointer information such as addresses indicating locations ofthe transaction data (TR) and the master data (MA) in the storage device30 such that the user can refer to the respective access tickets (ACTs).The pointer information may be any information indicating where the datais present and having content from which the data can be referred to.

The timestamps are provided in the transaction data (TR) and the masterdata (MA) as explained above. Therefore, data content of the transactiondata (TR) and the master data (MA) can be grasped and managed in timeseries.

The information processing device 20 for the user and the auxiliarysystem 100 are configured to be mutually communicable. The auxiliarysystem 100 receives content of an inquiry desired by the user from theinformation processing device 20. The auxiliary system 100 is capable ofreferring to the access ticket (ACT) configuring the blockchain from theinformation processing device 20 for the user and is capable ofaccessing the data in the storage device 30 referring to the accessticket (ACT).

The auxiliary system 100 extracts necessary one or a plurality of dataout of the data according to inquiry content of the user received fromthe information processing device 20. In this case, the data may be acombination of one or a plurality of transaction data (TR) and masterdata (MA). Alternatively, the auxiliary system 100 may generate newmaster data (MA) from a plurality of transaction data (TR) and store themaster data (MA) in the storage device 40. It is possible to determineas appropriate, according to the inquiry content and content of thedata, which data is used. However, what is important is that, since thedata has time information and a plurality of data at different times canbe stored together with the time information, the data can be grasped asan individual time history. Therefore, individual data that changes astime elapses can be provided to the information processing device 60 notas present transitory data. This is effective to determine a symptom anda medical symptom of an individual who needs observation in time course.

When information that can specify an individual is included in datastored in the storage device 40 for the user, the information is removedor information concerning an anonymous person is added and storedinstead of the individual specifying information. Further, in theinformation processing device 20 for the user, a blockchain of an accessticket (ACT) having a pointer for specifying a position of the datastored in the storage device 40 is formed to enable the user to refer tothe data. In order to clarify a difference between the access ticket(ACT) configuring this anonymous new blockchain and the blockchain ofthe access ticket (ACT) shown in FIG. 7 , in FIG. 12 , reference signsof signs AACT(1) to AACT(1) (anonymous ACTs) are used. Note that, asshown in FIG. 12 , the auxiliary system 100 may refer to thenon-anonymous access ticket (ACT) and the anonymous access ticket (AACT)via the application of the information processing device 20 for the userinstead of more autonomously directly referring to the on-anonymousaccess ticket (ACT) and the anonymous access ticket (AACT). Dataprocessing and storage of data in the storage device 40 for the user maybe performed in cooperation of the application and the auxiliary system100 by sharing functions each other.

The application of the information processing device 20 delivers theprocessed data in the storage device 40 and an inquiry and a question ofinformation requested as an answer (collectively referred to as“inquiry”) to the information processing device 60 via a network. Thisinquiry may be performed from the auxiliary system 100 in place of theapplication of the information processing device 20.

As explained above, the auxiliary system 100 may be an informationprocessing device or system operated by an expert corresponding tocontent of treated data such as medical treatment or an informationprocessing device incorporating an expert system or may be aninformation processing device or system implemented with artificialintelligence. Further, the auxiliary system 100 may be an informationprocessing device or system obtained by combining the informationprocessing devices or systems.

As explained above, the information processing device 60 could includean AI (artificial intelligence) system configured to perform dataautomatic processing to return, as an answer, data matching data andinquiry content from the user, a program or a system executed on ablockchain automated to a high degree for returning an answer matchingan inquiry based on a contract of both parties, or a system specializedto a high degree. The information processing device 60 and the auxiliarysystem 100 may be configured to mutually organically function as onebody or the information processing device 60 and the auxiliary system100 as a whole may be configured to function as an auxiliary system ofthe blockchain technology.

The information processing device 60 returns, according to a receivedinquiry, question content, and data, as a consideration, answer dataprovided from the storage device 40. The consideration is returnedbecause the data provided from the storage device 40 is individualprecious data and utilization of the data is a source of deriving usefulinformation as an answer. Therefore, the source sometimes could have aprecious value. The system desirably includes means for acquiring replydata such as a virtual currency having a monetary value from theinformation processing device 60 that has obtained the value. In FIG. 12, the storage device 120, which is data storing means of a conventionaltype, is shown as an example. However, the information processing device60 may be able to return the consideration to the user of theinformation processing device 20 as a virtual currency on a BCN. Inparticular, acquisition of the consideration as the virtual currency ismore smoothly performed by using a smart contract.

The answer data stored in the storage device 120 is made accessible bythe auxiliary system 100 to be comparable with the data delivered fromthe storage device 40. Therefore, since a feedback that can comparegiven information and obtained information is formed, it is possible toimprove accuracy of the data processing of the auxiliary system 100.

An anonymous access ticket (AACT) indicating the data stored in thestorage device 120 may be further added to the anonymous blockchain(ABC) such that the data can be referred to. Consequently, theinformation processing device 20 and the auxiliary system 100 arecapable of accessing from the anonymous blockchain (ABC) to the answerdata acquired from the information processing device 60 for the thirdparty.

Note that, as explained above, the auxiliary system 100 may be aninformation processing device or system operated by an expertcorresponding to content of treated data such as a medical examinationand medical treatment or an information processing device incorporatingan expert system, may be an information processing device or systemimplemented with artificial intelligence. Alternatively, the auxiliarysystem 100 may be an information processing device or system configuredto operate according to an application programmed such that animplemented artificial intelligence or expert system can exert thefunctions explained above.

The present invention is further disclosed below.

Item 1

A data utilization method for acquiring, with an information processingdevice used by an individual, data related to information concerning theindividual and making it possible to utilize the data, the methodcomprising:

-   a step of transmitting data concerning an address on a blockchain    network used by the individual to a provision source of the data    related to the information concerning the individual via a network;-   a step of issuing data for access (ACT) including the data    concerning the address and the data for identifying the provision    source of the data to the address of the blockchain network and    registering the data for access (ACT); and-   a step of specifying the provision source of the data by referring    to the data for access (ACT) from the address of the blockchain    network and acquiring the data related to the information concerning    the individual from the specified provision source.

Item 2

The data utilization method described in item 1, wherein the dataprovided from the provision source includes identification informationof an individual permitted to use the data by the information processingdevice.

Item 3

The data utilization method described in item 1 or 2. wherein the dataprovided from the provision source includes identification informationof the information processing device used by the individual.

Item 4

The data utilization method described in any one of items 1 to 3,wherein the data provided from the provision source includesidentification information of the provision source.

Item 5

The data utilization method described in any one of items 1 to 4,wherein the data provided from the provision source includes informationindicating generation time of the data.

Item 6

The data utilization method described in any one of items 1 to 5.wherein the data (MA) provided from the provision source is a data setincluding data concerning a plurality of respective data items generatedbased on a plurality of data (TR), which are history data concerning theindividual.

Item 7

The data utilization method described in item 6, wherein each of theplurality of data items indicates latest data in the data set of thehistory data.

Item 8

The data utilization method described in any one of items 1 to 7,wherein at least the data related to the information concerning theindividual is hashed by a hash function.

Item 9

A system for acquiring, with an information processing device used by anindividual, data related to information concerning the individual andmaking it possible to utilize the data, the system comprising theinformation processing device, wherein

-   the information processing device includes at least a memory or a    storage device connected to the information processing device, and-   the information processing device has:-   a function of transmitting data concerning an address on a    blockchain network used by the individual to a provider-side    information processing device including a storage device serving as    a provision source of the data related to the information concerning    the individual;-   a function of referring to, from the provider-side information    processing device, data for access (ACT) including the data    concerning the address issued to the address of the blockchain    network and data for identifying the provision source of the data;    and-   a function of acquiring, based on the data for access (ACT), the    data related to the information concerning the individual and    storing the data in at least a memory or a storage device of the    individual.

Item 10

The data utilization system described in item 9, wherein the dataprovided from the provision source includes identification informationof an individual permitted to use the data by the information processingdevice.

Item 11

The data utilization system described in item 9 or 10, wherein the dataprovided from the provision source includes at least identificationinformation of the information processing device used by the individual,identification information of the provision source, and informationindicating generation time of the data.

Item 12

The data utilization system described in any one of items 9 to 11,wherein the data (MA) provided from the provision source is a data setincluding data concerning a plurality of respective data items generatedbased on a plurality of data (TR), which are history data concerning theindividual.

Item 13

The data utilization system described in item 12, wherein each of theplurality of data items indicates latest data in the data set of thehistory data.

Item 14

The data utilization system described in any one of items 9 to 13,wherein at least the data related to the information concerning theindividual is hashed by a hash function.

Item 15

A program for acquiring data related to information concerning anindividual, the program being stored in an information processing deviceused by the individual and executed by a first information processingdevice, the program comprising:

-   a step of providing a blockchain address to another information    processing device; and-   a step of acquiring, based on data for access (ACT) including    information concerning the blockchain address transmitted from the    other information processing device based on the blockchain address,    the data related to the information concerning the individual    generated by the other information processing device or a storage    device used by the information processing device.

Item 16

The program described in item 15, wherein the data related to theinformation concerning the individual includes identificationinformation of an individual permitted to use the data by theinformation processing device.

Item 17

The program described in item 15 or 16, wherein the data related to theinformation concerning the individual includes at least identificationinformation of the information processing device used by the individual,identification information of the provision source, and informationindicating generation time of the data.

1. A method for enabling a user of a first information processing deviceor a third-party of a third-party information processing device accessdata of a user stored in a storage device used by a second informationprocessing device associated with a provider of the data of the userstored in the storage device, the method comprising: providing, with thefirst information processing device of the user, a blockchain addressassociated with the user to the second information processing device,the blockchain address indicating a storage area on a blockchain networkused by the first information processing device of the user wherein thestorage area being configured to facilitate recording data using adistributed ledger; generating, with the second information processingdevice, access ticket data (ACT), wherein the access ticket data (ACT)including a first information associated with the blockchain addressprovided by the user and a second information associated withidentification of the data of the user permitted by the secondinformation processing device to be accessed from the first informationprocessing device of the user; and registering, with the secondinformation processing device associated with the provider of the dataor with the first information processing device of the user receivingthe access ticket data (ACT) from the second information processingdevice, the access ticket data (ACT) for recordation in the distributedledger in the storage area of the blockchain network at the blockchainaddress used by the first information processing device of the user sothat the first information processing device or the third-partyinformation processing device provided with the access ticket data (ACT)from the first information processing device enables to access the dataof the user stored in the storage device and identified by the accessticket data (ACT) registered in the storage area of the blockchainnetwork.
 2. A system for enabling a user of a first informationprocessing device or a third-party of a third-party informationprocessing device to access data of the user stored in a storage deviceused by a second information processing device associated with aprovider of the data of the user stored in the storage device, thesystem comprising: the first information processing device used by andassociated with the user and configured to provide a block-chain addressassociated with the user to the second information processing devicethat uses the storage device and is associated with the provider of thedata of the user, the blockchain address indicating a storage area on ablockchain network used by the first information processing device ofthe user and the storage area being configured to facilitate recordingdata using a distributed ledger; and the second information processingdevice being configured to generate access ticket data (ACT), whereinthe access ticket data (ACT) including a first information associatedwith the blockchain address provided by the user and a secondinformation associated with identification of the data of the userpermitted by the second information processing device to be accessedfrom the first information processing device of the user; and registerthe access ticket data (ACT) for recordation in the distributed ledgerin the storage area of the blockchain network at the blockchain addressused by the first information processing device of the user so that thefirst information processing device or the third-party informationprocessing device provided with the access ticket data (ACT) from thefirst information processing device enables to access the data of theuser stored in the storage device and identified by the access ticketdata (ACT) registered in the storage area of the blockchain network. 3.The method according to claim 1, wherein each transaction record of aplurality of transaction records includes history data conceming theuser.
 4. The method according to claim 3, wherein each transactionrecord of the plurality of transaction records indicates latest data inthe data set of the history data.